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{{short description|Rock consolidated from volcanic ash}}{{Other uses}}{{Refimprove|date=August 2007}}File:Tufo Necropoli della Banditaccia.JPG|thumb|Etruscan tuff blocks from a tomb at BanditacciaBanditacciaFile:Bandelier-Pockmarked Cliff.jpg|thumb|200px|Welded tuff from Bandelier National Monument, New MexicoNew MexicoTuff (from the Italiantufo), also known as volcanic tuff, is a type of rock made of volcanic ash ejected from a vent during a volcanic eruption. Following ejection and deposition, the ash is compacted into a solid rock in a process called consolidation. Tuff is sometimes{{when|date=September 2018}} erroneously called{{by who|date=September 2018}} "tufa", particularly when used as construction material, but properly speaking, tufa is a limestone precipitated from groundwater. Rock that contains greater than 50% tuff is considered tuffaceous. Tuff is a relatively soft rock, so it has been used for construction since ancient times. Since it is common in Italy, the Romans used it often for construction. The Rapa Nui people used it to make most of the moai statues in Easter Island.Tuff can be classified as either sedimentary or igneous rock. They are usually studied in the context of igneous petrology, although they are sometimes described using sedimentological terms.

Volcanic ash

The material that is expelled in a volcanic eruption can be classified into three types:

Tephra, chunks of solid material of all shapes and sizes ejected and thrown through the air

Tephra is made when magma inside the volcano is blown apart by the rapid expansion of hot volcanic gases. Magma commonly explodes as the gas dissolved in it comes out of solution as the pressure decreases when it flows to the surface. These violent explosions produce solid chunks of material that can then fly from the volcano. Chunks smaller than 2 mm in diameter (sand-sized or smaller) are called volcanic ash.

Breccias

File:HoleInTheWallTuff.JPG|thumb|Some 18.5 million-year-old tuff exposed at Hole-in-the-Wall Canyon, Mojave National PreserveMojave National PreserveFile:Ettringer Tuff.jpg|thumb|right|A 10 by 15 cm sample of tuff containing angular fragments of other rocks (GermanyGermanyAmong the loose beds of ash that cover the slopes of many volcanoes, three classes of materials are represented. In addition to true ashes of the kind described above, lumps of the old lavas and tuffs form the walls of the crater, which have been torn away by the violent outbursts of steam, and pieces of sedimentary rocks from the deeper parts of the volcano that were dislodged by the rising lava and are often intensely baked and recrystallized by the heat to which they have been subjected.In some great volcanic explosions, nothing but lumps of the old lavas and tuffs forming the walls of the crater etc. are emitted, as at Mount Bandai in Japan in 1888. Many eruptions also have occurred in which the quantity of broken sedimentary rocks that mingled with the ash is very great; instances include the volcanoes of the Eifel and the Devonian tuffs, known as Schalsteins, in Germany. In the Scottish coalfields, some old volcanoes are plugged with masses consisting entirely of sedimentary debris; in such cases, supposedly no lava was ejected, but the cause of the eruption was the sudden liberation and expansion of a large quantity of steam. These accessory or adventitious materials, however, as distinguished from the true ash, tend to occur in angular fragments, and when they form a large part of the mass, the rock is more properly a "volcanic breccia" than a tuff. The ash ejecta vary in size from large blocks 20 ft or more in diameter to the minutest impalpable dust. The large masses are called "volcanic bombs"; they have mostly a rounded, elliptical, or pear-shaped form owing to rotation in the air before they solidified. Many of them have ribbed or nodular surfaces, and sometimes they have a crust intersected by many cracks like the surface of a loaf of bread. Any ash in which they are very abundant is called an agglomerate.In those layers and beds of tuff that have been spread out over considerable tracts of land and which are most frequently encountered among the sedimentary rocks, smaller fragments dominate and bombs more than a few inches in diameter may be absent altogether. A tuff of recent origin is generally loose and incoherent, but the older tuffs have been, in most cases, cemented together by pressure and the action of infiltrating water, making rocks which, while not very hard, are strong enough to be extensively used for building purposes (e.g. in the neighborhood of Rome). If they have accumulated subaerially, like the ash beds found on Mt. Etna or Vesuvius at the present day, tuffs consist almost wholly of volcanic materials of different degrees of fineness with pieces of wood and vegetable matter, land shells, etc., but many volcanoes stand near the sea, and the ash cast out by them is mingled with marine sediments. In this way, ashy muds, sands, or even in some cases ashy limestones are formed. Most of the tuffs found in the older marine formations contain admixtures of clay, sand, and sometimes fossilshells, which prove that they were beds spread out under water.During some volcanic eruptions, a layer of ash several feet in thickness is deposited over a considerable area; such beds thin out rapidly as the distance from the crater increases, and ash deposits covering many square miles are usually very thin. The showers of ash often follow one another after longer or shorter intervals, hence thick masses of tuff, whether of subaerial or of marine origin, have mostly a stratified character. The coarsest materials or agglomerates show this least distinctly; in the fine beds, it is often well developed.

Igneous rock

File:BishopTuff.jpg|thumb|Rocks from the Bishop tuff in California, uncompressed with pumice on left, compressed with fiammefiammeApart from adventitious material, such as fragments of the older rocks, pieces of trees, etc., the contents of an ash deposit may be described as consisting of more or less crystalline igneous rocks. If the lava within the crater has been at such a temperature that solidification has commenced, crystals are usually present. They may be of considerable size like the grey, rounded leucite crystals found on the sides of Vesuvius. Many of these are very perfect and rich in faces because they grew in a medium that was liquid and not very viscous. Good crystals of augite and olivine are also to be obtained in the ash beds of Vesuvius and of many other volcanoes, ancient and modern. Blocks of these crystalline minerals (anorthite, olivine, augite, and hornblende) are common objects in the tuffs of many of the West Indian volcanoes. Where crystals are very abundant, the ashes are called "crystal tuffs". In St. Vincent and Martinique in 1902, much of the dust was composed of minute crystals enclosed in thin films of glass because the lava at the moment of eruption had very nearly solidified as a crystalline mass. Some basaltic volcanoes, though, have ejected great quantities of black glassy scoria, which, after consolidation, weather to a red soft rock known as palagonite; tuffs of this kind occur in Iceland and Sicily.In the Lipari Islands and Hungary, acid (rhyolitic) tuffs, of pale grey or yellow color, largely composed of lumps and fragments of pumice, occur. Over a large portion of the sea bottom, the beds of fine mud contain small, water-worn, rounded pebbles of very spongy volcanic glass; these have been floated from the shore or cast out by submarine volcanoes, and may have travelled for hundreds of miles before sinking; some kinds of pumice have been shown to float on seawater for more than a year. The deep sea-deposit known as the "red clay" is largely of volcanic origin and might be suitably described as a "submarine tuff-bed".

Types

Welded tuff

File:Welded tuff at Golden Gate in Yellowstone-750px.JPG|thumb|right|Welded tuff at Golden Gate in Yellowstone National ParkYellowstone National ParkWelded tuff is a pyroclastic rock, of any origin, that was sufficiently hot at the time of deposition to weld together. Strictly speaking, if the rock contains scattered, pea-sized fragments or fiamme in it, it is called a welded lapilli-tuff. Welded tuffs (and welded lapilli-tuffs) can be of fallout origin, or deposited from pyroclastic density currents, as in the case of ignimbrites. During welding, the glass shards and pumice fragments adhere together (necking at point contacts), deform, and compact together, resulting in a eutaxitic fabric.Welded ignimbrites can be highly voluminous, such as the Lava Creek Tuff erupted from Yellowstone Caldera in Wyoming 640,000 years ago. Lava Creek tuff is known to be at least 1000 times as large as the deposits of the May 18, 1980 eruption of Mount St. Helens, and it had a Volcanic Explosivity Index (VEI) of 8, greater than any eruption known in the last 10,000 years. The intensity of welding may decrease towards the upper margin of a deposit, towards areas in which the deposit is thinner, and with distance from source. Welded tuff is commonly rhyolitic in composition, but examples of all compositions are known.

Rhyolitic tuff

(File:Tuff shards.jpg|thumb|right|Light-microscope image of tuff as seen in thin section (long dimension is several mm): The curved shapes of altered glass shards (ash fragments) are well preserved, although the glass is partly altered. The shapes were formed about bubbles of expanding, water-rich gas.)

For petrographical purposes, tuff is generally classified according to the nature of the volcanic rock of which it consists; this may be the same as the accompanying lavas if any were emitted during an eruption, and if a change occurs in the kind of lava which is poured out, the tuffs also indicate this equally clearly. Rhyolite tuffs contain pumiceous, glassy fragments and small scoriae with quartz, alkalifeldspar, biotite, etc. Iceland, Lipari, Hungary, the Basin and Range of the American southwest, and New Zealand are among the areas where such tuffs are prominent. The broken pumice is clear and isotropic, and very small particles commonly have crescentic, sickle-shaped, or biconcave outlines, showing that they are produced by the shattering of a vesicular glass, sometimes described as ash-structure. The tiny glass fragments derived from broken pumice are called shards; the glass shards readily deform and flow when the deposits are sufficiently hot, as shown in the accompanying image of welded tuff.In the ancient rocks of Wales, Charnwood, the Pentland Hills, etc., similar tuffs are known, but in all cases, they are greatly changed by silicification (which has filled them with opal, chalcedony, and quartz) and by devitrification. The frequent presence of rounded corroded quartz crystals, such as occur in rhyolitic lavas, helps to demonstrate their real nature.An example of this tuff, Rochlitz Porphyr, can be seen in the Mannerist-style sculpted portal outside the chapel entrance in Colditz Castle.Georg Dehio: Handbuch der deutschen KunstdenkmÃ¤ler, Sachsen II. Deutscher Kunstverlag, MÃ¼nchen, Berlin 1998, p. 160 The trade name Rochlitz Porphyr is the traditional designation for a dimension stone of Saxony with an architectural history over 1,000 years in Germany. The quarries are located near Rochlitz.Heiner Siedel: SÃ¤chsische âPorphyrtuffeâ aus dem Rotliegend als Baugesteine: Vorkommen und Abbau, Anwendung, Eigenschaften und Verwitterung. In: Institut fÃ¼r Steinkonservierung e. V. Bericht Nr. 22, 2006, p. 47-58. WEB,weblink Archived copy, 2010-05-09, yes,weblink" title="web.archive.org/web/20110611074858weblink">weblink 2011-06-11,

Trachyte tuff

Trachyte tuffs contain little or no quartz, but much sanidine or anorthoclase and sometimes oligoclase feldspar, with occasional biotite, augite, and hornblende. In weathering, they often change to soft red or yellow clay-stones, rich in kaolin with secondary quartz. Recent trachyte tuffs are found on the Rhine (at Siebengebirge), in Ischia, near Naples, Hungary, etc.

Ultramafic tuff

Ultramafic tuffs are extremely rare; their characteristic is the abundance of olivine or serpentine and the scarcity or absence of feldspar and quartz. Rare occurrences may include unusual surface deposits of maars of kimberlites of the diamond-fields of southern Africa and other regions. The principal rock of kimberlite is a dark bluish-green, serpentine-rich breccia (blue-ground) which when thoroughly oxidized and weathered becomes a friable brown or yellow mass (the "yellow-ground"). These breccias were emplaced as gasâsolid mixtures and are typically preserved and mined in diatremes that form intrusive pipe-like structures. At depth, some kimberlite breccias grade into root zones of dikes made of unfragmented rock. At the surface, ultramafic tuffs may occur in maar deposits. Because kimberlites are the most common igneous source of diamonds, the transitions from maar to diatreme to root-zone dikes have been studied in detail. Diatreme-facies kimberlite is more properly called an ultramafic breccia rather than a tuff.

Folding and metamorphism

File:Servian Wall-Termini Station.jpg|thumb|right|Remains of the ancient Servian WallsServian WallsIn course of time, changes other than weathering may overtake tuff deposits. Sometimes, they are involved in folding and become sheared and cleaved. Many of the green slates of the lake district in Cumberland are finely cleaved ashes. In Charnwood Forest also, the tuffs are slaty and cleaved. The green color is due to the large development of chlorite. Among the crystalline schists of many regions, green beds or green schists occur, which consist of quartz, hornblende, chlorite or biotite, iron oxides, feldspar, etc., and are probably recrystallized or metamorphosed tuffs. They often accompany masses of epidiorite and hornblende â schists which are the corresponding lavas and sills. Some chlorite-schists also are probably altered beds of volcanic tuff. The "Schalsteins" of Devon and Germany include many cleaved and partly recrystallized ash-beds, some of which still retain their fragmental structure, though their lapilli are flattened and drawn out. Their steam cavities are usually filled with calcite, but sometimes with quartz. The more completely altered forms of these rocks are platy, green chloritic schists; in these, however, structures indicating their original volcanic nature only sparingly occur. These are intermediate stages between cleaved tuffs and crystalline schists.

Importance

File:Easter-Island.jpg|right|thumb|Ahu Tongariki on Easter Island, with 15 moai made of tuff from Rano Raraku crater: The second moai from the right has a Pukao ("topknot") which is made of red scoriascoriaTuff's primary economic value is as a building material. In the ancient world, tuff's relative softness meant that it was commonly used for construction where it was available. Tuff is common in Italy, and the Romans used it for many buildings and bridges. For example, the whole port of the island of Ventotene (still in use), was carved from tuff. The Servian Wall, built to defend the city of Rome in the fourth century BC, is also built almost entirely from tuff.{{citation needed|reason= The article on the Servian Wall says they were made of tufa, the limestone rock. They provide a source, but I cannot read it. If you do find a source for this, I'd appreciate if it was open |date=June 2015}} The Romans also cut tuff into small, rectangular stones that they used to create walls in a pattern known as opus reticulatum.The Romans thought bees nested in tuff. The substance is mentioned in the Aeneid (Book XII, ln 805).The peperino, much used at Rome and Naples as a building stone, is a trachyte tuff. Pozzolana also is a decomposed tuff, but of basic character, originally obtained near Naples and used as a cement, but this name is now applied to a number of substances not always of identical character. In the Eifel region of Germany, a trachytic, pumiceous tuff called trass has been extensively worked as a hydraulic mortar.{{EB1911|wstitle=Tuff|inline=1}}Yucca Mountain nuclear waste repository, a U.S. Department of Energy terminal storage facility for spent nuclear reactor and other radioactive waste, is in tuff and ignimbrite in the Basin and Range Province in Nevada. In Napa Valley and Sonoma Valley, California, areas made of tuff are routinely excavated for storage of wine barrels.Tuff from Rano Raraku was used by the Rapa Nui people of Easter Island to make the vast majority of their famous moai statues.Tuff is important in Armenian architecture.BOOK, Holding, N., Armenia: with Nagorno Karabagh,weblink May 26, 2010, 2006, Bradt Travel Guides, 978-1-84162-163-0, 32,